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    • 1. 发明申请
    • NETWORK SHARING IN AN EVOLVED PACKET CORE NETWORK
    • 网络共享在演示的分组核心网络
    • US20130176975A1
    • 2013-07-11
    • US13805702
    • 2010-07-02
    • Zoltán Richárd TurányiHans ErikssonTomas Goldbeck-Löwe
    • Zoltán Richárd TurányiHans ErikssonTomas Goldbeck-Löwe
    • H04W72/08
    • H04W72/087H04W28/16
    • One aspect pertains to a method of enabling an Evolved Packet Core (EPC) network to implement predetermined Quality of Service (QoS) resource policies applied to subscriber/service groups operating via the network. The method comprises receiving a request for QoS resources to be provided to a bearer for traffic of a user of a subscriber/service group from which the request originated. A Resource Class (RC) parameter is assigned to the request. The RC parameter identifies a resource partition and the originating subscriber/service group, A Gx-Request that includes the RC parameter is forwarded to the EPC network to invoke application of the requested QoS resources so as to establish a bearer in accordance with the predetermined policies identifiable from the RC. Other aspects pertain to EPC network nodes configured accordingly.
    • 一个方面涉及一种使演进分组核心(EPC)网络能够实现应用于经由网络操作的用户/服务组的预定的服务质量(QoS)资源策略的方法。 所述方法包括接收针对要发起所述请求的用户/服务组的用户的业务的承载的QoS资源的请求。 资源类(RC)参数被分配给请求。 RC参数标识资源分区和起始订户/服务组,包括RC参数的A Gx请求被转发到EPC网络以调用所请求的QoS资源的应用,以便根据预定策略建立承载 从RC可以识别。 其他方面涉及相应配置的EPC网络节点。
    • 2. 发明授权
    • Network sharing in an evolved packet core network
    • 网络共享在演进的分组核心网络中
    • US08873498B2
    • 2014-10-28
    • US13805702
    • 2010-07-02
    • Zoltán Richárd TurányiHans ErikssonTomas Goldbeck-Löwe
    • Zoltán Richárd TurányiHans ErikssonTomas Goldbeck-Löwe
    • H04W4/00H04W28/16H04W72/08
    • H04W72/087H04W28/16
    • One aspect pertains to a method of enabling an Evolved Packet Core (EPC) network to implement predetermined Quality of Service (QoS) resource policies applied to subscriber/service groups operating via the network. The method comprises receiving a request for QoS resources to be provided to a bearer for traffic of a user of a subscriber/service group from which the request originated. A Resource Class (RC) parameter is assigned to the request. The RC parameter identifies a resource partition and the originating subscriber/service group, A Gx-Request that includes the RC parameter is forwarded to the EPC network to invoke application of the requested QoS resources so as to establish a bearer in accordance with the predetermined policies identifiable from the RC. Other aspects pertain to EPC network nodes configured accordingly.
    • 一个方面涉及一种使演进分组核心(EPC)网络能够实现应用于经由网络操作的用户/服务组的预定的服务质量(QoS)资源策略的方法。 所述方法包括接收针对要发起所述请求的用户/服务组的用户的业务的承载的QoS资源的请求。 资源类(RC)参数被分配给请求。 RC参数标识资源分区和起始订户/服务组,包括RC参数的A Gx请求被转发到EPC网络以调用所请求的QoS资源的应用,以便根据预定策略建立承载 从RC可以识别。 其他方面涉及相应配置的EPC网络节点。
    • 3. 发明授权
    • Backhaul header compression
    • 回程头压缩
    • US08792408B2
    • 2014-07-29
    • US12629217
    • 2009-12-02
    • András RáczZoltán Richárd Turányi
    • András RáczZoltán Richárd Turányi
    • H04J1/10
    • H04W28/06H04L69/04H04W88/16H04W92/12
    • A telecommunications network, and particularly a mobility management entity (MME) (26) of the telecommunications network, performs negotiation of use of header compression over at least a portion of a backhaul link extending between a base station node (28) and a serving gateway (SGW) (24). In some embodiments the backhaul link comprises a radio link. In certain bearer encapsulation embodiments having radio-interface borne backhaul links a General Packet Radio service Tunneling Protocol (GTP) tunnel traverses between the serving gateway node and a relay base station node. In such bearer encapsulation embodiments the method further comprises handling signaling between the serving gateway node and the relay base station node for negotiating the use of the header compression inside the General Packet Radio service Tunneling Protocol (GTP) tunnel. In certain proxy embodiments having radio-interface borne backhaul links the backhaul link comprises a first tunnel extending between the serving gateway node and a donor base station node and a further (e.g., second) tunnel extending between the donor base station node and the relay base station node. In such example proxy embodiments the method further comprises handling signaling between the relay base station node and the donor base station node for negotiating the use of the header compression inside the second tunnel, and (optionally) handling signaling between the donor base station node and the serving gateway node for negotiating the use of the header compression inside the first tunnel.
    • 电信网络,特别是电信网络的移动性管理实体(MME)(26)通过在基站节点(28)和服务网关(28)之间延伸的回程链路的至少一部分来执行报头压缩的使用协商 (SGW)(24)。 在一些实施例中,回程链路包括无线电链路。 在具有无线接口承载回程链路的某些承载封装实施例中,通用分组无线业务隧道协议(GTP)隧道在服务网关节点和中继基站节点之间穿越。 在这样的承载封装实施例中,该方法还包括处理服务网关节点和中继基站节点之间的信令,以协商通用分组无线业务隧道协议(GTP)隧道内的报头压缩的使用。 在具有无线电接口承载回程链路的某些代理实施例中,回程链路包括在服务网关节点和施主基站节点之间延伸的第一隧道以及在施主基站节点和中继基站之间延伸的另外(例如,第二)隧道 站点节点。 在这种示例性代理实施例中,该方法还包括处理中继基站节点和施主基站节点之间的信令,用于协商第二隧道内的报头压缩的使用,以及(可选地)处理施主基站节点和 服务网关节点,用于协商在第一隧道内使用头部压缩。
    • 4. 发明申请
    • Local Access Point Name for Use in Accessing Packet Data Networks
    • 用于访问分组数据网络的本地接入点名称
    • US20140078967A1
    • 2014-03-20
    • US14113484
    • 2011-04-28
    • Zoltán Richárd TurányiDinand Roeland
    • Zoltán Richárd TurányiDinand Roeland
    • H04W40/30
    • H04W40/30H04W8/082H04W88/16H04W92/02
    • One aspect provides a method of enabling a user entity, UE (10), to access a local Packet Data Network, PDN, when the UE (10) accesses an Evolved Packet Core, EPC, network via a Broadband Forum, BBF-defined access network over the S2a interface. The method includes receiving a request from the UE in the EPC (203, 204), the request including one or more Access Point Names, APNs. A decision (205) is made to offload at least one of the APNs by designating it as a local APN. Communications are established between the UE and a PDN identified by use of the designated local APN in a session set-up request from the UE. The communications are established directly (505), via the BBF-defined access network, and so as to avoid passing data packets via the EPC. Other aspects include an EPC network entity, a Broadband Network Gateway, BNG (22), in a BBF-defined access network (20), and User equipment (10) configured in accordance with the method.
    • 一方面提供了一种使UE(10)能够在UE(10)经由宽带论坛访问演进分组核心,EPC,网络时接入本地分组数据网络(PDN)的方法,BBF定义的接入 网络通过S2a接口。 该方法包括在EPC(203,204)中从UE接收请求,该请求包括一个或多个接入点名称APN。 决定(205)通过将其指定为本地APN来卸载至少一个APN。 在来自UE的会话建立请求中,在UE与通过使用指定的本地APN识别的PDN之间建立通信。 通过BBF定义的接入网直接建立通信(505),以避免通过EPC传递数据包。 其他方面包括在BBF定义的接入网络(20)中的EPC网络实体,宽带网络网关,BNG(22)和根据该方法配置的用户设备(10)。
    • 5. 发明授权
    • Policy enforcement within an IP network
    • IP网络内的策略实施
    • US08670333B2
    • 2014-03-11
    • US12160615
    • 2006-01-20
    • György MiklósZoltán Richárd Turányi
    • György MiklósZoltán Richárd Turányi
    • H04L12/26
    • H04L41/0893H04W8/082H04W28/02H04W28/16H04W80/04H04W80/10
    • A method and network node for generating and applying policy rules in an IP network. A Policy Enforcement Function (PEF) is implemented in a node such as a Gateway GPRS Service Node (GGSN) routing packet flows to and from network users. An Application Function (AF) determines source and destination addressing information for a packet flow and sends the information to a Policy and Charging Decision Function in a Policy and Charging Control Function (PCRF) having access to service and mobility policies for network users. The PCRF generates policy rules based on the addressing information and the appropriate service and mobility policies. The PCRF sends the policies rules to the PEF for application to the traffic flow.
    • 一种用于在IP网络中生成和应用策略规则的方法和网络节点。 策略执行功能(PEF)在诸如网关GPRS服务节点(GGSN)路由分组之类的节点中实现,来自网络用户。 应用功能(AF)确定分组流的源和目的地寻址信息,并将信息发送到具有访问网络用户的服务和移动性策略的策略和计费控制功能(PCRF)中的策略和计费决策功能。 PCRF基于寻址信息和适当的服务和移动性策略生成策略规则。 PCRF将策略规则发送到PEF,以应用于流量。
    • 6. 发明授权
    • Lightweight mobility architecture
    • 轻量级移动架构
    • US08325626B2
    • 2012-12-04
    • US12523664
    • 2008-01-14
    • Gábor TóthAndrás CsászárAttila MihalyZoltán Richárd Turányi
    • Gábor TóthAndrás CsászárAttila MihalyZoltán Richárd Turányi
    • H04J1/16H04L12/56
    • H04W8/087H04L29/12028H04L61/103H04L61/2015H04W80/06
    • Mobility between access domains in an Internet Protocol (IP) network can be supported by introducing a so-called Mobility Manager (MM) that maintains a database of currently attached devices and their current access domain location. The mobility manager may then detect, for a device registered in the database, a change of access domain from a first access domain to a second access domain by monitoring connection maintenance signaling related to the considered device. The mobility manager should at least obtain an indication of such a change of access domain. In response to a detected change of access domain, the mobility manager arranges for a reconfiguration of the network to forward traffic destined to an IP address of the device in the first access domain to a new location in the second access domain. In this way, the mobility manager allows the device to keep its IP address when moving between access domains.
    • 可以通过引入维护当前连接的设备的数据库及其当前访问域位置的所谓的移动管理器(MM)来支持互联网协议(IP)网络中的接入域之间的移动性。 然后,移动性管理器可以通过监视与所考虑的设备相关的连接维护信令来检测对于在数据库中注册的设备,从第一接入域到第二接入域的接入域的改变。 移动管理员至少应该获得访问域这种更改的指示。 响应于检测到的接入域的改变,移动性管理器布置网络的重新配置以将目的地为第一接入域中的设备的IP地址的流转发到第二接入域中的新位置。 以这种方式,移动管理器允许设备在接入域之间移动时保持其IP地址。
    • 8. 发明授权
    • User behavior based mobile broadband user plane traffic generation system and method for real-like measurement generation
    • 基于用户行为的移动宽带用户平面流量生成系统和实时测量生成方法
    • US08280956B2
    • 2012-10-02
    • US12857684
    • 2010-08-17
    • Geza SzaboGergely PongráczZoltán Richárd Turányi
    • Geza SzaboGergely PongráczZoltán Richárd Turányi
    • G06F15/16
    • H04L67/22H04L41/00H04L43/00
    • A system, a method, and a graphical user interface testing tool are described herein for constructing a validation trace (i.e., high-speed realistic network traffic) using a real network without causing privacy concerns. In one embodiment, the method comprises the steps of: (a) providing a client device which has one or more applications operating thereon and a graphical user interface; (b) recording user interactions on the client device; (c) extracting usage scenarios from real network traffic in the real network; (d) emulating user actions on the client device according to a specific user scenario by utilizing the recorded user interactions and the extracted usage scenarios to generate additional real traffic in the real network; and (e) creating the validation trace based on the generated additional real traffic and the extracted usage scenarios.
    • 本文描述了一种系统,方法和图形用户界面测试工具,用于使用真实网络构建验证跟踪(即,高速实际网络流量)而不引起隐私问题。 在一个实施例中,该方法包括以下步骤:(a)提供在其上操作一个或多个应用的​​客户端设备和图形用户界面; (b)在客户端设备上记录用户交互; (c)从实际网络中的真实网络流量提取使用场景; (d)通过利用记录的用户交互和所提取的使用场景在实际网络中产生附加的实际业务,根据特定用户场景模拟客户端设备上的用户动作; 和(e)基于生成的附加实际流量和所提取的使用场景来创建验证跟踪。
    • 9. 发明授权
    • Method and apparatus for route optimization in a telecommunication network
    • 电信网络中路由优化的方法和装置
    • US08144645B2
    • 2012-03-27
    • US12097909
    • 2005-12-23
    • Zoltán Richárd TurányiCsaba Keszei
    • Zoltán Richárd TurányiCsaba Keszei
    • H04J1/16
    • H04W8/082H04L69/22H04W40/02H04W80/04
    • A method and apparatus for controlling the routing of a data packet sent from a first node towards a second node of a telecommunication network. The first node is a mobile node having an associated home network. An access router intercepts the data packet and determines whether the packet relates to a first mode of communication between the first and second nodes in which data packets generally bypass a home agent associated with the first node's home network. In a second mode of communication, home agent packets generally passed through the home agent. The access router drops the packet if the packet relates to the first mode of communication and if dropping the packet is determined to be in accordance with a pre-determined routing policy.
    • 一种用于控制从第一节点发送到电信网络的第二节点的数据分组的路由的方法和装置。 第一节点是具有相关联的归属网络的移动节点。 接入路由器拦截数据分组并确定分组是否与第一和第二节点之间的第一通信模式相关,其中数据分组通常绕过与第一节点的归属网络相关联的归属代理。 在第二种通信方式中,归属代理分组通常通过归属代理。 如果分组涉及第一种通信模式,并且丢弃分组被确定为符合预定的路由策略,则接入路由器丢弃分组。